Refactor PCGainMatch.C and Analyzer.C for improved efficiency and readability
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7805481ead
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26
Analyzer.C
26
Analyzer.C
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@ -72,7 +72,7 @@ void Analyzer::Begin(TTree * /*tree*/){
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hsx3VpcE->SetNdivisions( -612, "x");
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hsx3VpcE->SetNdivisions( -612, "x");
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hsx3VpcE->SetNdivisions( -12, "y");
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hsx3VpcE->SetNdivisions( -12, "y");
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hZProj = new TH1F("hZProj", "Nos of anodes", 20, 0, 19);
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hZProj = new TH1F("hZProj", "ZProjection", 600,-600, 600);
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hAnodeHits = new TH2F("hAnodeHits", "Anode vs Anode Energy, Anode ID; Anode E", 24,0 , 23, 400, 0 , 20000);
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hAnodeHits = new TH2F("hAnodeHits", "Anode vs Anode Energy, Anode ID; Anode E", 24,0 , 23, 400, 0 , 20000);
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hAnodeMultiplicity = new TH1F("hAnodeMultiplicity", "Number of Anodes/Event", 40, 0, 40);
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hAnodeMultiplicity = new TH1F("hAnodeMultiplicity", "Number of Anodes/Event", 40, 0, 40);
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hanVScatsum = new TH2F("hanVScatsum", "Anode vs Cathode Sum; Anode E; Cathode E", 400,0 , 10000, 400, 0 , 16000);
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hanVScatsum = new TH2F("hanVScatsum", "Anode vs Cathode Sum; Anode E; Cathode E", 400,0 , 10000, 400, 0 , 16000);
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@ -270,7 +270,10 @@ Bool_t Analyzer::Process(Long64_t entry){
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int aID = 0;
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int aID = 0;
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int cID = 0;
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int cID = 0;
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int anodeCount = 0;
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int anodeCount = 0;
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float cEMax = 0;
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int cIDMax = 0;
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float cEnextMax = 0;
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int cIDnextMax = 0;
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float aE = 0;
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float aE = 0;
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float cE = 0;
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float cE = 0;
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@ -291,8 +294,8 @@ Bool_t Analyzer::Process(Long64_t entry){
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// hpcCoin->Fill( pc.index[i], pc.index[j]);
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// hpcCoin->Fill( pc.index[i], pc.index[j]);
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// }
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// }
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for (int j=0;j<sx3.multi;j++){
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// for (int j=0;j<sx3.multi;j++){
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if(excludeSX3.find(sx3.index[j]) == excludeSX3.end()){
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// if(excludeSX3.find(sx3.index[j]) == excludeSX3.end()){
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hpcIndexVE->Fill( pc.index[i], pc.e[i] );
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hpcIndexVE->Fill( pc.index[i], pc.e[i] );
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for( int j = i+1; j < pc.multi; j++){
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for( int j = i+1; j < pc.multi; j++){
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@ -306,8 +309,8 @@ Bool_t Analyzer::Process(Long64_t entry){
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cathodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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cathodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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}
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}
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// }
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// }
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}
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// }
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}
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// }
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// hpcIndexVE->Fill( pc.index[i], pc.e[i] );
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// hpcIndexVE->Fill( pc.index[i], pc.e[i] );
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hAnodeMultiplicity->Fill(pc.multi);
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hAnodeMultiplicity->Fill(pc.multi);
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@ -325,6 +328,15 @@ Bool_t Analyzer::Process(Long64_t entry){
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for (const auto& cathode : cathodeHits) {
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for (const auto& cathode : cathodeHits) {
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int cID = cathode.first;
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int cID = cathode.first;
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float cE = cathode.second;
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float cE = cathode.second;
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if(cE>cEMax){
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cEMax = cE;
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cIDMax = cID;
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}
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if(cE>cEnextMax && cE<cEMax){
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cEnextMax = cE;
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cIDnextMax = cID;
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}
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cESum += cE;
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cESum += cE;
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}
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}
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@ -345,7 +357,7 @@ Bool_t Analyzer::Process(Long64_t entry){
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if( HitNonZero){
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if( HitNonZero){
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pw_contr.CalTrack( hitPos, aID, cID);
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pw_contr.CalTrack1( hitPos, aID, cIDMax, cIDnextMax, cEMax, cEnextMax,1);
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hZProj->Fill(pw_contr.GetZ0());
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hZProj->Fill(pw_contr.GetZ0());
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}
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}
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@ -63,6 +63,7 @@ public:
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void ConstructGeo();
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void ConstructGeo();
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void FindWireID(TVector3 pos, TVector3 direction, bool verbose = false);
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void FindWireID(TVector3 pos, TVector3 direction, bool verbose = false);
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void CalTrack(TVector3 sx3Pos, int anodeID, int cathodeID, bool verbose = false);
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void CalTrack(TVector3 sx3Pos, int anodeID, int cathodeID, bool verbose = false);
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void CalTrack1(TVector3 sx3Pos, int anodeID, int cathodeID1, int cathodeID2, float cathodeE1, float cathodeE2, bool verbose);
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void CalTrack2(TVector3 sx3Pos, PWHitInfo hitInfo, double sigmaA = 0, double sigmaC = 0, bool verbose = false);
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void CalTrack2(TVector3 sx3Pos, PWHitInfo hitInfo, double sigmaA = 0, double sigmaC = 0, bool verbose = false);
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double CircularMean(std::vector<std::pair<int, double>> wireList);
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double CircularMean(std::vector<std::pair<int, double>> wireList);
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@ -235,6 +236,27 @@ inline void PW::CalTrack(TVector3 sx3Pos, int anodeID, int cathodeID, bool verbo
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}
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}
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inline void PW::CalTrack1(TVector3 sx3Pos, int anodeID, int cathodeID1, int cathodeID2, float cathodeE1, float cathodeE2, bool verbose){
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trackPos = sx3Pos;
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double q1 = cathodeE1;
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double q2 = cathodeE2;
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double fracC = (q1) / (q1 + q2);
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TVector3 shiftC1 = (Ca[cathodeID2].first - Ca[cathodeID1].first) * fracC;
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TVector3 shiftC2 = (Ca[cathodeID2].second - Ca[cathodeID1].second) * fracC;
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TVector3 c1 = Ca[cathodeID1].first + shiftC1;
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TVector3 c2 = Ca[cathodeID1].second + shiftC2;
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TVector3 n1 = (An[anodeID].first).Cross((sx3Pos).Unit());
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TVector3 n2 = (c1 - c2).Cross((sx3Pos - c2)).Unit();
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// if the handiness of anode and cathode revered, it should be n2 cross n1
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trackVec = (n2.Cross(n1)).Unit();
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// if( verbose ) printf("Theta, Phi = %f, %f \n", trackVec.Theta() *TMath::RadToDeg(), trackVec.Phi()*TMath::RadToDeg());
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}
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inline void PW::CalTrack2(TVector3 sx3Pos, PWHitInfo hitInfo, double sigmaA, double sigmaC, bool verbose){
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inline void PW::CalTrack2(TVector3 sx3Pos, PWHitInfo hitInfo, double sigmaA, double sigmaC, bool verbose){
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trackPos = sx3Pos;
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trackPos = sx3Pos;
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@ -148,8 +148,6 @@ Bool_t PCGainMatch::Process(Long64_t entry){
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std::vector<std::pair<int, double>> cathodeHits={};
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std::vector<std::pair<int, double>> cathodeHits={};
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int aID = 0;
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int aID = 0;
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int cID = 0;
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int cID = 0;
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int anodeCount = 0;
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int cathodeCount = 0;
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float aE = 0;
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float aE = 0;
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float cE = 0;
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float cE = 0;
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@ -167,10 +165,8 @@ Bool_t PCGainMatch::Process(Long64_t entry){
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float cESum = 0;
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float cESum = 0;
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if (pc.index[i] < 24 ) {
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if (pc.index[i] < 24 ) {
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anodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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anodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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anodeCount++;
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} else if (pc.index[i] >= 24) {
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} else if (pc.index[i] >= 24) {
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cathodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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cathodeHits.push_back(std::pair<int, double>(pc.index[i], pc.e[i]));
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cathodeCount++;
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}
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}
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for(int j=i+1;j<pc.multi;j++){
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for(int j=i+1;j<pc.multi;j++){
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@ -182,22 +178,28 @@ Bool_t PCGainMatch::Process(Long64_t entry){
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}
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}
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if (anodeHits.size()==1 && cathodeHits.size() >= 1) {
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if (anodeHits.size()==1 && cathodeHits.size() >= 1) {
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// Accumulate total energy from anode hits
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for (const auto& anode : anodeHits) {
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for (const auto& anode : anodeHits) {
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if(inPCCut){
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float cESum = 0;
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// for(int l=0; l<sx3.multi; l++){
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// if (sx3.index[l]==80){
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int aID = anode.first;
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int aID = anode.first;
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float aE = anode.second;
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float aE = anode.second;
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aESum += aE; // Sum the anode energy
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aESum += aE;
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hAnodeHits->Fill(aID, aE);
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}
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}
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// Accumulate total energy from cathode hits
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for (const auto& cathode : cathodeHits) {
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for (const auto& cathode : cathodeHits) {
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if(inPCCut){
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int cID = cathode.first;
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int cID = cathode.first;
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float cE = cathode.second;
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float cE = cathode.second;
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cESum += cE; // Sum the cathode energy
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// if(cE>cEMax){
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// cEMax = cE;
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// cIDMax = cID;
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// }
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// if(cE>cEnextMax && cE<cEMax){
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// cEnextMax = cE;
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// cIDnextMax = cID;
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// }
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cESum += cE;
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}
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}
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}
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}
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